Add to ORKGHydrogen, a sustainable and clean energy carrier, has gained interest as a potential candidate in the global energy scenario in the past few years. In the present study, dissolved waste PET (polyethylene terephthalate) in phenol was proposed for catalytic steam reforming toward production of hydrogen. Phenol as an unwanted liquid product can be found in the pyrolysis oil and/or in many industrial wastewater streams. Moreover, PET is one of the major products of plastic waste which constitutes a major hindrance to the environmental conservation efforts and causes harm to living organism. The 10 wt.% Ni/γ-Al2O3 catalysts were prepared by impregnation method and characterized using BET-N2, TPD-CO2, TPR-H2, and SEM-EDX, showed the presence of n...
Tremendous research efforts have been dedicated towards development and utilization of sustainable a...
Humanity reliance on plastic has led to the current problem of dealing with the waste that is genera...
Hydrogen was produced from waste plastics using a novel two-stage pyrolysis-low temperature (250 °C)...
Hydrogen, a sustainable and clean energy carrier, has gained interest as a potential candidate in th...
Production of hydrogen from plastic waste could be a prospective key to the ecological problems resu...
As a sustainable and renewable energy carrier, hydrogen is considered as a key future fuel to make t...
This research investigates the preparation of Ni-Co/CeO2 catalysts based on impregnation and hydroth...
Ni/Pd-co-promoted Al2O3–La2O3 catalysts for selective hydrogen production from polyethylene terephth...
Theoretical and experimental approaches were achieved to estimate the presence of mass transfer limi...
The different loading of nickel oxide, the effect of the addition of Lanthanum (La) with Al2O3 suppo...
The effect of different pellet sizes of nickel (Ni) and lanthanum (La) promoted Al2O3 support on the...
In this research, titanium nanoparticles (TNPs) for Ni–Pt/Al nano-sized catalysts were prepared via ...
Ni–Co/ZrO2 (NCZ) nano-structure catalysts prepared by the hydrothermal method (NCZ-hyd) and conventi...
Great research efforts have been made during the last decades for the development and production of ...
Polyethylene terephthalate (PET) is widely used in textile fiber, film, and bottles. Although PET bo...
Tremendous research efforts have been dedicated towards development and utilization of sustainable a...
Humanity reliance on plastic has led to the current problem of dealing with the waste that is genera...
Hydrogen was produced from waste plastics using a novel two-stage pyrolysis-low temperature (250 °C)...
Hydrogen, a sustainable and clean energy carrier, has gained interest as a potential candidate in th...
Production of hydrogen from plastic waste could be a prospective key to the ecological problems resu...
As a sustainable and renewable energy carrier, hydrogen is considered as a key future fuel to make t...
This research investigates the preparation of Ni-Co/CeO2 catalysts based on impregnation and hydroth...
Ni/Pd-co-promoted Al2O3–La2O3 catalysts for selective hydrogen production from polyethylene terephth...
Theoretical and experimental approaches were achieved to estimate the presence of mass transfer limi...
The different loading of nickel oxide, the effect of the addition of Lanthanum (La) with Al2O3 suppo...
The effect of different pellet sizes of nickel (Ni) and lanthanum (La) promoted Al2O3 support on the...
In this research, titanium nanoparticles (TNPs) for Ni–Pt/Al nano-sized catalysts were prepared via ...
Ni–Co/ZrO2 (NCZ) nano-structure catalysts prepared by the hydrothermal method (NCZ-hyd) and conventi...
Great research efforts have been made during the last decades for the development and production of ...
Polyethylene terephthalate (PET) is widely used in textile fiber, film, and bottles. Although PET bo...
Tremendous research efforts have been dedicated towards development and utilization of sustainable a...
Humanity reliance on plastic has led to the current problem of dealing with the waste that is genera...
Hydrogen was produced from waste plastics using a novel two-stage pyrolysis-low temperature (250 °C)...